Llying after Diving

The question is often asked “Why do I have to wait to fly after diving”? The answer to the question is simply “pressure”. Consider the surface as the baseline and at this level we all have one atmosphere of weight on us (without us even noticing it!). For every 33 feet of sea water (10 m.) we descend-add another atmosphere to the pressure. This pressure causes nitrogen to go into solution in our blood and our plasma becomes supersaturated.The opposite is true for ascending to altitude with a decrease in pressure. It is the decrease in pressure that causes nitrogen to come out of solution and to bubble (like opening a bottle of carbonated beverage which is under pressure and in which CO2 is under pressure).

So, we get bubbles when we:1. Ascend to the surface after a dive

2. Ascend to altitude after a dive (a continuance of the dive while flying)

3. Ascend to a high altitude from the surface without pressurization.

Therefore we need to allow a longer time to blow off saturated nitrogen after diving (the same reason we spend a designated time on the surface between dives).

Altitude Specifics5000 feet (1524 m.)- Up to this altitude pressure decreases approximately 1 inch of mercury for every 1000 feet. Beyond this altitude, the decrease per 1000 feet gradually diminishes.

23,000 feet (7010 m.)- Decompression sickness can occur starting at this altitude but is usually minor. The Lear Jet is capable of flying at a maximum altitude of 23,000 feet (7010 m.) while maintaining a pressure cabin altitude of sea level.

40,000 feet (12192 m.)- This is the limit for oxygen breathing by mask on a demand system. The total air pressure at this altitude is less than 140 mmHg.

42,000 feet (12802 m.)- This is the FAA certified ceiling for the Boeing 727, 707 and the Douglas DC 8 Airliners.

45,000 feet (13716 m.)- This is the absolute limit for oxygen breating using a positive pressure oxygen mask with 15 mm. positive pressure. Breathing at this altitude can only be sustained by a trained athlete for a few minutes.

45,100 feet (13747 m.)- This is the FAA certified ceiling for the Boeing 747.

50,000 feet (15240 m.)- The airman has 6 to 7 seconds useful consciousness after losing cabin pressure at this altitude. A pressure suit or a pressure cabin is necessary for survival.

63,000 feet (19202 m.)-(Armstrong’s Line) Blood at 37 degrees C. (98.6 F.) boils at 63,000 feet as the vapor pressure of water at that temperature is 47 mmHg. 47mmHg is the total atmospheric pressure at 63,000 feet (19202 m.).

The FAA specifies that pressurize aircraft be certified for a maximum differential pressure across the pressure cabin of 9.4 PSI. Most commercial airlines have a house rule that pressure cabin differentials will not exceed 8.6 PSI.

The Undersea and Hyperbaric Medical Society conducted a workshop on flying after diving in 1991 after their controversial recommendations were made in 1989 and this was supported by DAN and diver certification agencies in their publications. Some diving groups were pleased, others felt they were too conservative and unnecessarily constrictive to recreational divers.

The final upshot of the debate is a DAN revised guideline which states:

b. Wait an extended surface interval beyond twelve hours after daily, multiple dives for several days or dives that require decompression stops

c. The greater the diving the longer the duration recommended before flying.

The above is for sports diving and should not apply to commercial diving or nitrox diving. Because of the complex nature of DCS and because decompression schedules are based on unverifiable assumptions, there can never be a fixed flying after diving rule that can guarantee prevention of bends completely.

Reference

Reports of 1,159 decompression sickness (DCS) incidents during recreational diving were analyzed by logistic regression for the effects of flying on the occurrence of Type II DCS, complete relief of symptoms after one recompression, and residual symptoms 3 months after treatment. The relevant diver populations were those who: 1) did not fly; 2) had symptoms before flying but flew anyhow; 3) and did not have symptoms before flying but developed symptoms during or after flight. Of the total DCS population, 13.9% had preflight symptoms while 5.6% developed symptoms during or after flight. Symptoms which occurred during or after flight were no more serious and their responses to recompression no less successful than symptoms in nonflying divers. There was a statistically significant association between divers who flew with pre-existing symptoms and Type II DCS, incomplete relief with one recompression, and residual symptoms after 3 months.